A 30 µF capacitor is charged by connecting it to a battery of emf 4.0 V - AQA - A-Level Physics - Question 18 - 2022 - Paper 2

The initial charge Q_0 on the capacitor can be calculated using: $Q_0 = C \times V$ where V is the voltage. Here, V is 4.0 V.

Substituting the known values: egin{align*} Q_0 & = 30 \times 10^{-6} F \times 4.0 V \ & = 120 \times 10^{-6} C \ & = 12 \mu C. \end{align*} Thus, this statement is correct.

The pd V after a time T can be found using the formula: $V(t) = V_0 e^{-t/T}$ Substituting t = T and V_0 = 4.0 V: egin{align*} V(T) & = 4.0 V imes e^{-1} \ & = 4.0 V imes \frac{1}{e} \ & \approx 4.0 V \times 0.3679 \approx 1.47 V. \end{align*} This indicates that after time T, the pd across the capacitor is approximately 1.47 V, which rounds to 1.5 V. Thus, this statement is considered correct.

Using the formula for charge Q after time t: $Q(t) = Q_0 e^{-t/T}$ For t = 2T: $Q(2T) = Q_0 e^{-2}.$ This indicates the charge is indeed Q_0 e^{-2} after time 2T. Thus, this statement is correct.